Abstract

AbstractElectrospray ionization mass spectrometry was used to investigate the cation‐π interaction of Ag+ cation with [2.2]paracyclophane. It was found that cationic Ag.([2.2]paracyclophane)+ and Ag.([2.2]paracyclophane)2+ complex species are formed in the gas phase. Further, applying quantum mechanical calculations in the frame of the density functional theory, using B3LYP functional with Def2TZVP basis set, the most probable structures of the proved Ag+ ‐ [2.2]paracyclophane complexes were derived. In the Ag.([2.2]paracyclophane)+ complex, the cation Ag+ is bounded to three carbon atoms of one benzene ring of [2.2]paracyclophane ligand via cation‐π interaction. Quite analogously is bonded also second [2.2]paracyclophane molecule in Ag.([2.2]paracyclophane)2+ complex. The interaction energy, E(int), of Ag.([2.2]paracyclophane)+ complex was calculated to be −220.79 kJ/mol, E(int) of Ag.([2.2]paracyclophane)2+ complex is −362.67 kJ/mol. It is consistent with the formation of the considered Ag+ ‐ [2.2]paracyclophane complex species.

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